Abstract Radio-resistant properties of melanomas undermine benefit of radiation therapy (RT). DNA-dependent protein kinase (DNA-PKcs) is essential for the non-homologous end joining (NHEJ) mediated repair DNA double-strand break (DSB). We evaluated radio-sensitizing effects of M3814, a selective oral inhibitor of DNA-PKcs, in patient-derived xenografts (PDXs) of melanoma brain metastases. M3814 (≥300 nM) inhibited RT-induced (5 Gy) auto-phosphorylation of serine-2056 of DNA-PKcs in primary cultures of M12, M15 and M27 PDX lines. Interestingly, inhibition of RT-induced DNA-PKcs by M3814 coincided with increased KAP1 phosphorylation, a DNA damage signaling regulated via ATM. As a measure of lasting DNA damage, persistent γH2AX foci were observed in 28% cells 24 hours after co-treatment with M3814 and RT as compared to RT controls, where only 12% cells had persistent γH2AX foci. In a clonogenic survival assay, M3841 augmented RT-induced killing of M12 cells in a dose dependent manner. However, a minimal 16 h exposure with ~300 nM M3814 was most effective treatment. Pharmacokinetics (PK) after single oral dose of 20 mg/kg M3814, showed considerably short half-life (~2.44 hours) and poor brain distribution in wildtype (WT) FBV mice (Kpuu, 0.027). Suggesting liability to efflux transporters, brain distribution of M3814 in TKO mice (triple knockouts for efflux transporters Mdr1a, Mdr1b and BCRP1) was ~11 fold higher than WT animals (kpuu, 0.215). Using this preliminary PK data, simulations were performed using simBiology software to define dosing regimen and schedule to maximize drug exposures in brain. Based on this in silico modeling, two regimens- (A: 125 mg/kg twice a day (at 0 and 7 hours), and B: 50 mg/kg dose followed by three additional doses of 35 mg/kg per day at 4 hour intervals), combined with a single fraction RT (3 Gy) delivered 10 min after the first M3814 dose in each regimen, were tested in athymic nude mice carrying M12 flank tumors. In this study, drug levels achieved in brain and plasma (121±95, 1914±1661 nM with regimens A and 79±51, 1205±664 nM with regimen B, respectively at 24 h), exceeded predictions. Consistent with a much higher accumulation of M3814 in flank tumor tissues (1.5 to 3.4 fold higher than plasma), therapy with M3814/RT had robust pharmacodynamics effects on DNA damage signaling both at 6 and 24 hours of treatment as compared to RT alone. In summary, M3814 is a promising radio-sensitizer in melanoma brain metastases. Further studies will determine efficacy and pharmacodynamics effects of M3814/RT regimens in relevant orthotopic models of brain metastases and address potential concerns of normal tissue toxicity. Citation Format: Jianxiong Ji, Emily J. Smith, Paige Sarkaria, Ann C. Mladek, Surabhi Talele, Katelyn Swanson, Afroz S. Mohammad, Lihong He, Zeng Hu, Katrina K. Bakken, Shiv K. Gupta, Danielle M. Burgenske, Gaspar J. Kitange, William F. Elmquist, Jann N. Sarkaria. Inhibition of DNA-PKcs by M3814 potentiates efficacy of ionizing radiation in patient derived xenografts of melanoma brain metastases [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 1381.
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